3d mapping camera

RIY oblique cameras

Good quality Close Range Photography Systems - DG4Pros——Best full-frame drone oblique camera – Rainpoo

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  • Good quality Close Range Photography Systems - DG4Pros——Best full-frame drone oblique camera – Rainpoo
  • Case Study
  • FAQ

Good quality Close Range Photography Systems - DG4Pros——Best full-frame drone oblique camera – Rainpoo

M10 Pro Surveying Camera


With the never-ending quest for pixels in aerial photography, to improve customer productivity, The company has launched new high precision photogrammetry cameras: the M10p. The total pixel of the camera is 100MP, from the imaging element to the optical lens, which is independently developed and designed by RAINPOO,it has medium format image sensors for better image quality and high perception.

 

In terms of lens design, RAINPOO has developed the M-L lens for medium format cameras based on years of research and development experience. The m-L lens still uses the classic double Gaussian structure, ultra-low dispersion ED lens and aspherical lens to ensure adequate image resolution, while the lens weight and volume can be controlled to a small level.

 

The RAINPOO M10 aerial mapping camera is light in weight and extremely small in size. It is easily compatible with most of the current market aerial survey UAV platforms to obtain superior aerial images. The camera is highly integrated and has a firm structure; The newly developed highly reliable M-S shutter can meet the needs of users in any harsh environment for high intensity and long-term use. This is a high performance and reliable aerial camera that customers can trust.




Specification

Good quality Close Range Photography Systems - DG4Pros——Best full-frame drone oblique camera – Rainpoo
    Product weight 650g (without gimbal)
    Pixels 100MP
    Sensor size 44*33
    Camera dimension 105.5*94*110 (50mm lens)
    Minimum exposure time interval 0.6s
    supply voltage 18V-36v
    Power supply UAV power supply
    Mounting mode lower hanging and top drag shock absorption
    Working temperature -20℃~50℃
    Trigger signal PWM/high-low level /serial port
    Camera control open SDK
    Level protection IP53

Case Study

  • Case Study

    A success case of oblique photography

    ——Use 3D model to do cadastral survey for high-rise areas

    1. Overview

    After several years of development, now in China,oblique photography has been widely used in rural cadastral survey projects. However,due to the restriction of equipment technical conditions , oblique photography is still weak for cadastral measurement of large-drop scenes, mainly because the focal length and picture format of the oblique camera lens are not up to standard. After many years of project experience, we found that the map accuracy should be within 5 cm, then the GSD must be within 2 cm, and the 3D model must be very good,the edges of the building must be straight and clear.
    Generally, the camera focal length used for rural cadastral measurement projects is 25mm in vertical and 35mm oblique. In order to achieve the accuracy of 1:500, the GSD must be within 2 cm. And to ensure that,the flight altitude of drones is generally between 70m-100m. According to this flight altitude, there is no way to complete the data collection of the 100m-above-high buildings.Even if you carry out a flight anyway , it can not guarantee the overlap of the roofs, resulting in poor quality of the model.And because the fight height is too low, it is extremely dangerous for UAV.

    In order to solve this problem , in May 2019, we carried out the accuracy verification test of Oblique Photography for urban high-rise buildings. The purpose of this test is to verify whether the final mapping accuracy of the 3D model built by RIY-DG4pros oblique camera can meet the requirement of 5 cm RMSE.

    2. Testing process

    Equipment

    In this test, we choose the DJI M600PRO, equipped with the Rainpoo RIY-DG4pros oblique five-lens camera.

    Surveying area and control points planning

    In response to the above problems, and to increase the difficulty, we specially selected two cells with an average building height of 100 meters for testing.

    Control points are preset according to GOOGLE map, and the surrounding environment should be as open and unobstructed as possible. The distance between the points is in the range of 150-200M.

    The control point is 80*80 square, divided into red and yellow according to the diagonal, so as to ensure that the point center can be clearly identified when the reflection is too strong or the illumination is insufficient, to improve the accuracy.

    UAV Route Planning

    In order to ensure the safety of operation, we reserved a safe altitude of 60 meters, and UAV flew at 160 meters. In order to ensure the overlap of roof, we also increased the overlap rate. The longitudinal overlapping rate is 85% and the transversal overlapping rate is 80%, and UAV flew at 9.8m/s speed.

    Aerial Triangulation(AT) report

    Use “Sky-Scanner” (Developed by Rainpoo) software to download and pre-process the original photos, then import them into ContextCapture 3D modeling software by one key.

    • 15h.

      AT time:15h.

       

    • 23h.

      3D modeling

      time: 23h.

    Lens distortion report

    From the distortion grid diagram, it can be seen that the lens distortion of RIY-DG4pros is extremely small, and the circumference is almost completely coincident with the standard square;

    Reprojection error RMS

    Thanks to the optical technology of Rainpoo, we can control the RMS value within 0.55, which is an important parameter to the accuracy of the 3D model.

    Synchronization of five-lens

    It can be seen that the distance between the main point of the center vertical lens and the main point of the oblique lenses are: 1.63cm, 4.02cm, 4.68cm, 7.99cm, minus the actual position difference, the error values are: -4.37cm, -1.98cm , -1.32cm, 1.99cm, the maximum difference of position is 4.37cm, camera synchronization can be controlled within 5ms;

    Pinpoint error

    The RMS of predicted and actual control points ranges from 0.12 to 0.47 pixels.

    3. 3D modeling

    Model Display

    Detail show

    We can see that because the RIY-DG4pros uses a long focal length lenses, the house at the bottom of the 3d model is very clear to see. The minimum exposure time interval of the camera can reach 0.6s, so even if the longitudinal overlapping rate is increased to 85%, there’s no photo-leakage occurs. The footlines of high-rise buildings are very clear and basically straight, which also ensures that we can get more accurate footprints on the model later.

    4. Accuracy Check

    • We use the total station to collect the position data of the check-points and then import the DAT file into CAD. Then directly compare the points position data on the model to see their differences.
    • We use the total station to collect the position data of the check-points and then import the DAT file into CAD. Then directly compare the points position data on the model to see their differences.

    5. Conclusion

    In this test, the difficulty is that the high and low drop of the scene, the high density of the house and the complex floor. These factors will lead to an increase in the difficulty of flight , a higher risk, and a worse 3D model , which will lead to the decrease of the accuracy in cadastral survey.

    Because the RIY-DG4pros focal length is longer than common oblique cameras, it ensures that our UAV can fly at a safe enough altitude,and that the image resolution of the ground objects is within 2 cm. At the same time, the full-frame lens can help us to capture more angles of the houses when flying in high-density building areas, thus improving the quality of the 3D model. Under the premise that all hardware devices are guaranteed, we also improve the overlap of flight and the distribution density of control points to ensure the accuracy of the 3D model.

    oblique photography for the high-rise areas of cadastral survey, once because of the limitations of equipment and lack of experience, can only be measured through traditional methods. But the influence of high-rise buildings on RTK signal also causes the difficulty and poor accuracy of measurement. If we can use UAV to collect data, the influence of satellite signals can be completely eliminated, and the overall accuracy of measurement can be greatly improved. So the success of this test is of great significance to us.

    This test proves that RIY-DG4pros can indeed control the RMS to a small range of value, has good 3D modeling accuracy, and can be used in accurate measurement projects of high buildings.

FAQ

  • What is the format of the raw information?How do i supposed to process with it?

    the format of raw photos is .jpg.

    Usually after the flight,first we need to download them from the camera ,which need the software that we designed “Sky-Scanner”.With this software,we can download data by one key,and automatically generating ContextCapture block files too.

    Contact us to know more about raw photos >
  • Installation procedure on different platforms either UAV fixed wing or little airplanes?

    RIY-DG4 PROS can be mounted on both multi-rotor and fixed-wing drones for oblique photography data acquisition.And because of the control unit, data transmission unit and other subsystems are modular ,so it’s easily to be mounted and replaced.We work with many drone companies worldwide,both fixed-wing and multi-rotor and VTOL and helicopter,it turns out all of them are adapted very well.

    Contact us to know more about raw photos >
  • Why the synchronization of five-lenses is so important?

    We all know that during the drone flight, a trigger signal will be given to the five lenses of the obique camera. In theory, the five lenses should be exposed synchronously,and then a POS data will be recorded simultaneously.

    But after actual verification, we came to a conclusion: the more complex the texture information of the scene, the larger the amount of data that the lens can solve, compress, and store, and the more time it takes to complete the recording.

    If the interval between the trigger signals is shorter than the time required for the lens to complete the recording, the camera will not be able to do the exposure, which will result in a “missing photo” .

    BTWthe synchronization is also very important for PPK signal.

    Contact us to know more about raw photos >
  • What is the working efficiency of DG4Pros? How do I set the relevant parameters?

    DJI M600Pro + DG4PROS

    GSD(cm)

    1

    1.5

    2

    3

    4

    5

    Flight altitude(m)

    88

    132

    177

    265

    354

    443

    Flight speed(m/s)

    8

    8

    8

    8

    8

    8

    Single flightwork area(km2)

    0.26

    0.38

    0.53

    0.8

    0.96

    1.26

    Single flightphoto number

    5700

    3780

    3120

    2080

    1320

    1140

    Number of flightsone day

    12

    12

    12

    12

    12

    12

    Total work areaOne day(km2)

    3.12

    4.56

    6.36

    9.6

    11.52

    15.12

    ※Parameter table calculated by the longitudinal overlapping rate of 80% and the transversal overlapping rate of 70%(we recommend)

    Fixed-wing drone + DG4PROS 

    GSD(cm)

    2

    2.5

    3

    4

    5

    Flight altitude(m)

    177

    221

    265

    354

    443

    Flight speed(m/s)

    20

    20

    20

    20

    20

    Single flightwork area(km2)

    2

    2.7

    3.5

    5

    6.5

    Single flightphoto number

    10320

    9880

    8000

    6480

    5130

    Number of flightsone day

    6

    6

    6

    6

    6

    Total work areaOne day(km2)

    12

    16.2

    21

    30

    39

    ※Parameter table calculated by the longitudinal overlapping rate of 80% and the transversal overlapping rate of 70%(we recommend)

    Contact us to know more about raw photos >

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